纳米碳材料

  • 网络Nano carbon materials;carbon nanomaterials
纳米碳材料纳米碳材料
  1. 镍催化甲烷裂解制备新型纳米碳材料

    Preparation of Novel Nano-carbon Materials by Ni Catalysed Decomposition of Methane

  2. 纳米碳材料在锂离子蓄电池负极材料中的应用

    Applications of carbon nano-materials as anode for lithium ion batteries

  3. 纳米碳材料的合成及其影响因素

    Synthesis of nano carbons and influencing factors

  4. 石墨烯是新发现的具有高电导率的二维纳米碳材料,在储能领域有很好的应用前景。

    Graphene is a novel 2D nano-sized cabon with high electrical conductivity , which has good application prospect in energy storage field .

  5. 纳米碳材料拥有独特的电子结构以及丰富的表面功能团,可以替代传统的金属催化剂直接用于烷烃催化脱氢、催化氧化反应和电化学领域。

    Nano-carbons , which have unique electronic structure and abundant surface functional groups , may replace the traditional metal catalyst in dehydrogenation , oxidation and electrochemical reactions .

  6. 纳米碳材料的出现和发展为超级电容量电板材料研究提供了新的发展方向,将给超级电容器性能提高提供广阔的发展思路和空间。

    With the appearance of nano carbon materials , the study of supercapacitor will be promoted greatly , and the performance of supercapacitor will be greatly improved .

  7. 近年来,随着纳米碳材料的兴起,越来越多的高效催化剂以及高性能电极材料的应用成为了可能。

    In recent years , the arising of carbon nano-materials provides the potential to the application of more and more high efficient catalysts and good performance electrode materials .

  8. 由于结构可能处于高压等极端恶劣的服役环境中,对其材料性能的要求甚至达到微观尺度,故纳米碳材料在先进复合材料强韧化中应用广泛。

    For the severe service-environments , such as high-pressures etc , the requirements for the properties of materials have reached the nano scales , and carbon nano-materials are used as reinforcements of the advanced composites increasingly .

  9. 本文选定高比表面积纳米碳材料、廉价的氧化改性氢氧化镍和氧化锰作为电极材料,系统地研究了超级电容器的电极材料制备工艺、电容特性和电容形成机理。

    With high specific surface nano carbon and cheaper oxidated nickel hydroxide and manganese dioxide as electrode materials for supercapacitors , this dissertation has investigated the electrode materials preparation , capacitive property and mechanism of capacitance .

  10. 纳米碳材料如富勒烯,碳纳米管,纳米石墨等,由于具有奇特的物理化学和电子特性,一直是物理学家,化学家,材料学家研究的焦点。

    There has been a recent avalanche of literature focused on the templated synthesis of new carbon materials such as porous carbon , fullerenes and carbon nanotubes , due to the interesting physical , magnetic and electronic properties these new materials possess .

  11. 实验结果表明新型的纳米碳材料可赋予电极良好的导电性能,优于常用的导电石墨、炭黑等电子导体,是较为理想的电化学电容器用电极导电剂。

    The result of experiment shows that the properties of nano-carbon materials were better than that of common electron conductors like graphite and carbon black , and nano-carbon materials like nano-structured carbon black and carbon nanotubes were promising candidates as ideal electron conductors of the electrochemical capacitor .

  12. 聚氨酯基纳米碳复合材料表面的血液相容性研究

    Studies on the Blood Compatibility of the Polyurethane / nano-sized Carbon Composite

  13. 微米、纳米级碳材料的溶剂热合成与表征

    Solvothermal Synthesis and Characterization of Carbon Materials at Micro and Nano Scale

  14. 纳米多孔碳材料的合成方法初探

    A Study on the Synthesis of Nano - sized Porous Carbon Materials

  15. 除了石墨和金刚石等传统碳材料之外,近年来科研工作者又陆续发现了新型纳米级碳材料。

    Besides traditional carbon materials like graphite , diamond and so on , scientists have discovered new-types of carbon nano-materials in succession in recent years .

  16. 介绍了石墨,改性石墨,焦炭,热解碳和纳米级碳材料的研究,比较了各类碳材料的性质。

    Studies of graphite , modified graphite , coke , pyrolytic carbon and nano carbon materials are summarized . The characteristics of various carbon materials are compared .

  17. 通过原位水热法制备出δ-MnO2和纳米碳的复合材料。

    δ– MnO2 and nano-carbon composites were synthesized by in situ hydrothermal method .

  18. 第六章研究了纳米碳管复合材料,用拉伸法合成了单壁纳米碳管均匀分布并延拉伸方向定向排列的SWNT/PMMA复合材料,其电学性质和力学性质具有各向异性。

    In chapter 6 , the well aligned carbon nanotubes modified composite SWNT / PMMA with anisotropic mechanical and electrical properties is prepared by stretching method .

  19. 采用纳米碳纤维新型材料替代结构中的金属,增强非金属材料,形成一种新型无金属结构,即纤维混凝土结构、纤维砌块结构和纯复合纤维结构。

    Summary the metal used in nanometer new material of the carbon fiber alternation structure strengthens the nonmetal material , and forms one kind of new nothing metal structure .

  20. 综述了聚合物基纳米碳管复合材料的制备方法及增强型、耐热型、抗静电型和电磁屏蔽型纳米碳管/聚合物复合材料的性能和应用。

    This paper reviewed preparation methods of polymer-based carbon nano-tube composite materials and described properties and applications of several kinds of carbon nano-tube / polymer composites with characteristics of enhancing , heat resistance , antistatic and electromagnetic shielding .

  21. 以DOA基CMSs或DOA焦渣为碳源,微米镍粉为金属源,通过真空热处理法,合成了微纳米金属/碳复合材料。

    Carbon / nickel composites were synthesized with the vacuum heat treatment methods and utilizing CMSs or DOA residue coke as carbon source and nickel as catalyst .

  22. 本文利用热灯丝化学气相沉积法(HFCVD)制备了纳米量级的碳薄膜材料,对它的电学性质及场发射性质进行了详细的研究。

    In this dissertation , extensive researches on the electrical and field emission properties of nano-carbon films prepared by hot filament chemical vapor deposition ( HFCVD ) .

  23. 贵金属或过渡金属修饰的纳米碳管储氢材料

    Noble or Transition Metals modified Carbon Nanotubes as Hydrogen Storage Materials

  24. 纳米碳管及相关材料的电性能

    Introduction to Electric Properties of Carbon Nanotubes and Related Materials

  25. 纳米碳/聚甲基丙烯酸甲酯复合材料的研究

    Nano carbon - poly ( methyl methacrylate ) composite materials

  26. 纳米碳管及其复合材料的机械性能

    Mechanical Properties of Carbon Nanotubes and Its Composite Materials

  27. 纳米碳管/PMMA复合材料的研究进展

    Research Progress of Carbon Nanotubes / PMMA Composites

  28. 脉冲激光轰击法原位制备纳米碳/聚苯乙烯杂化材料的研究

    Research on Nano Carbon / Polystyrene Hybrid Materials Prepared In Situ by Pulsed Laser Ablation

  29. 纳米碳管增强复合材料界面特性对力学性能影响的数值分析

    Numerical analysis of the influence of interfacial characteristics of nano-tube reinforced composites on their mechanical properties

  30. 纳米金属/碳复合材料是一种新型碳功能材料,由于其独特的结构和性能,有望在高密度磁记录材料、氧化还原催化剂和生物医用材料等方面获得广泛应用。

    Carbon / metal nanocomposites are a kind of novel carbon functional composite materials . Because those materials possess special structures and properties , they might obtain the widespread application in areas such as high-density magnetic data storage , oxidation-reduction catalyst and biomedical-materials .